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Cellulases for biomass degradation: comparing recombinant cellulase expression platforms
Trends in Biotechnology, 2013Improvement of cellulase expression has the potential to change the nature of the biofuel industry. Increasing the economic feasibility of cellulase systems would significantly broaden the range of practicable biomass conversion, lowering the environmental impact of our civilisations' fuel needs.
Megan, Garvey +4 more
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2013
Bioethanol is currently produced by the fermentation of sugary and starchy crops, but waste plant biomass is a more abundant source because sugars can be derived directly from cellulose. One of the limiting steps in the biomass-to-ethanol process is the degradation of cellulose to fermentable sugars (saccharification).
Rainer, Fischer +2 more
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Bioethanol is currently produced by the fermentation of sugary and starchy crops, but waste plant biomass is a more abundant source because sugars can be derived directly from cellulose. One of the limiting steps in the biomass-to-ethanol process is the degradation of cellulose to fermentable sugars (saccharification).
Rainer, Fischer +2 more
openaire +2 more sources
Current Opinion in Biotechnology, 2009
There is a major international effort to develop renewable alternatives to fossil fuels. One approach is to produce a liquid fuel by enzymatically hydrolyzing carbohydrate polymers in biomass to sugars and fermenting them to ethanol. Cellulose is the main polymer in biomass and cellulases can hydrolyze it to cellobiose, which can be converted to ...
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There is a major international effort to develop renewable alternatives to fossil fuels. One approach is to produce a liquid fuel by enzymatically hydrolyzing carbohydrate polymers in biomass to sugars and fermenting them to ethanol. Cellulose is the main polymer in biomass and cellulases can hydrolyze it to cellobiose, which can be converted to ...
openaire +2 more sources
1981
One of nature’s most important biological processes is the degradation of lignocellulosic materials into carbon dioxide, water and humic substances. The strong wood-degrading capability of fungi depends, in part, upon the organization of their hyphae, which gives the organisms a penetrating capacity.
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One of nature’s most important biological processes is the degradation of lignocellulosic materials into carbon dioxide, water and humic substances. The strong wood-degrading capability of fungi depends, in part, upon the organization of their hyphae, which gives the organisms a penetrating capacity.
openaire +2 more sources